KR20030030573A - Method of detecting an optimum writing power in an optical disc player - Google Patents

Abstract

PURPOSE: A method for detecting an optimum recording power in an optical disc device is provided to detect the optimum power by randomly selecting several frames required for carrying out OPC(Optimum Power Control), thereby minimizing the time for carrying out the OPC and reducing the error rate. CONSTITUTION: A method for detecting an optimum recording power in an optical disc device includes the steps of randomly selecting the number of frames smaller than the number of frames allocated for a one-time test in a recording area for the process of detecting an optimum recording power in a predetermined information area of an optical disc(S18) to record test data by different recording optical power values per the selected frame(S20), reproducing the recorded test data, carrying out curve fitting by detecting the characteristics of the reproducing signals for the recording optical power values per the selected frame(S22), and detecting an optimum recording power in the fitted curved if the linear characteristics of the fitted curve is in a preset range.

Description

Method of detecting an optimum writing power in an optical disc device

The present invention relates to a method for detecting an optimal recording power in an optical disk device, and more particularly, to an optical disk device that performs an OPC (Optimum Power Control) process quickly by using a random sampling method of a population based on probability. A method of detecting optimal recording power

The recording optical power for the recording operation differs depending on the state or type of the recording medium, the state of the recording device (laser quality, write strategy, laser type and temperature characteristics, etc.), the recording speed, and so on. Before the recording operation is performed, the optimum recording optical power value is detected using the target recording optical power value recorded on the optical disc. Such a process is called an optimum recording power detection (OPC) process.

The conventional optimal recording power detection process records and reproduces 15 AbIP (Absolute Time In Pro-Groove) frames for several seconds in a power calibration area (PCA) area in a TOC section of an optical disk for a few seconds by a predetermined rule. Detect the value. In other words, the conventional optimal recording power detection process records test data with constant optical power in 10 ATIP frames among 15 ATIP frames in the PCA area in the case of a CD-R disc, and linearly outputs optical power in the remaining 5 ATIP frames. Incrementally to record test data. Thereafter, while the recorded test data is reproduced, the optimum recording optical power value is detected from the reproduction characteristics.

However, such an optimal recording power detection process must unconditionally record and reproduce test data in 15 ATIP frames, and it is often repeated many times than when the process is finished in one process. As a result, the time taken to completely terminate the optimum recording power detection process becomes substantially large.

SUMMARY OF THE INVENTION The present invention has been proposed in view of the above-described conventional circumstances, and an object thereof is to provide a method of detecting an optimum recording power in an optical disk apparatus which enables the optimum recording power value to be detected quickly.

Another object of the present invention is to provide an optimal recording power detection method in an optical disk apparatus which reduces the error rate of the optimal recording power detection process repeated several times in accordance with the optical disk.

1 is a configuration diagram of an optical disk device to which the present invention is applied;

2 is a flowchart for explaining a method of detecting optimal recording power in an optical disk apparatus according to an embodiment of the present invention;

3 and 4 are diagrams employed in describing an embodiment of the present invention.

※ Explanation of code for main part of drawing

10a: digital recording signal processor 10b: digital reproduction signal processor

12 Channel Bit Encoder 14 Optical Driver

16: optical disc 18: optical pickup

20: R / F part 22: spindle motor

24; Driver 26: Servo

28: memory 30: microcomputer

In order to achieve the above object, an optimal recording power detection method in an optical disk apparatus according to a preferred embodiment of the present invention is characterized by one test record in a recording area for an optimal recording power detection process existing in a predetermined information area of the optical disk. Selecting a number of frames less than the number of frames allocated for the first step and recording test data with differential recording optical power values for each frame; A second step of reproducing the recorded test data; A third step of detecting and curve fitting a characteristic of the reproduction signal with respect to the recording optical power value of each selected frame; And a fourth process of detecting an optimal recording power in the fitted curve if the linear characteristic of the fitted curve is within a preset range.

Hereinafter, a method of detecting an optimum recording power in an optical disk apparatus according to an embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a block diagram of an optical disk apparatus to which the present invention is applied, and includes a digital recording signal processor 10a for converting an input digital data into a recording format by adding an encoding and an error correction code (ECC); A channel bit encoder (12) for reconverting the data converted into the recording format into a bitstream; An optical driver 14 for outputting a light quantity driving signal according to an input signal; An optical pickup (18) for recording a signal on an optical disc (16) in accordance with the light quantity driving signal and for detecting a recording signal from a recording surface of the optical disc (16); An R / F unit 20 for filtering the signals detected by the optical pickup 18 and outputting them as binary signals; A driver (24) for driving a spindle motor (22) for rotating the optical pickup (18) and the optical disc (16); A servo unit 26 for controlling the driving of the driver 24 from the tracking error signal T.E and focusing error signal F.E of the optical pickup 18 and the rotational speed of the optical disc 16; A digital reproduction signal processor (10b) which decodes the binary signal and restores the original data with its own clock phase-locked to the binary signal output from the R / F unit (20); A memory 28 for storing ATIP frame-recorded optical power values recorded in a PCA (Power Calibration Area) area of the optical disk 16 for an optimal recording power detection process; And a microcomputer 30 for performing an optimal recording power detection operation and data recording / reproducing operation for the optical disc 10. FIG.

The microcomputer 30 randomly selects a predetermined number (for example, three) of ATIP frames among 15 ATIP frames allocated for one test recording in the PCA area for the optimal recording power detection process of the optical disc 16. Recording test data with differential recording optical power values for each ATIP frame, reproducing the recorded test data, and detecting curve characteristics by detecting characteristics of the reproduction signal with respect to the recording optical power values of the selected ATIP frames. After fitting, if the linear characteristic of the fitted curve is within a predetermined range, the optimal recording power is detected from the fitted curve.

If the linear characteristic of the fitted curve is outside the preset range, the microcomputer 30 increases the number of the randomly selected ATIP frames by a predetermined number (for example, one) and repeats the above-described operation.

Next, an optimal recording power detection operation in the optical disk apparatus according to the embodiment of the present invention will be described in detail with reference to the flowchart of FIG.

When the optimum recording power detection process is started, the microcomputer 30 controls the optical pickup 18 through the driver 24 and the servo unit 26 to read ATIP information, which is absolute time information of the optical disc 16 (step). S10). The microcomputer 30 detects the maker code from the ATIP information (step S12).

The microcomputer 30 determines the reliability of the manufacturing company of the optical disc 16 based on the detected maker code.

As a result of the determination, when the reliability is low ("No" in step S14), the microcomputer 30 performs the existing OPC process as it is (step S16).

However, when the reliability is high ("Yes" in step S14), the microcomputer 30 selects n ATIP frames among 15 ATIP frames for an optimal recording power detection process existing in the PCA area of the optical disc 16. In the embodiment of the present invention, three ATIP frames) are randomly extracted (step S18), and the optical pickup 18 is controlled to record test data in each frame at a recording optical power level set differently for each frame. (Step S20).

When the test data recording for the three frames is completed, the microcomputer 30 controls the optical pickup 18 to sequentially read the recorded test data. The read signal is filtered by the R / F unit 20, and then converted into a reproduction signal through the digital reproduction signal processing unit 10b and transmitted to the microcomputer 30. Then, the microcomputer 30 causes the target β range value recorded on the optical disc 16 to be read.

Subsequently, the microcomputer 30 fits a quadratic function curve with respect to each recording power and its read target β range value as an axis during reproduction (step S22). Then, the microcomputer 30 grasps a scatter diagram of the fitted curve (linear characteristic grasp).

That is, after fitting the curve as "C" to three points (actual recording) indicated by "X" as illustrated in FIG. 3, if the scatter of the fitted curve C is not the desired scattering degree (No at step S24). &Quot;), the microcomputer 30 determines that the three randomly selected ATIP frames cannot represent a population of 15 ATIP frames, and performs the random OPC process again, in which case the number of randomly selected frames is one. After the increase (step S26), the process returns to the step S18 to perform the operation again from that step.

However, if the scatter plot of the fitted curve is the desired scatter chart (" Yes " in step S24), the microcomputer 30 finds the recording power of the desired target? Range value in the fitted curve C. That is, the microcomputer 30 detects P _opt serving as the desired β _d region as illustrated in FIG. 4 and sets it as an optimal recording power value (step S28).

As described in detail above, according to the present invention, by randomly selecting only a few frames necessary for performing OPC, the optimal recording power can be detected quickly, thereby minimizing OPC execution time and reducing error rate repeated several times depending on the optical disc. Will be.

On the other hand, the present invention is not limited to the above-described embodiment, but can be carried out by modifying and modifying within the scope not departing from the gist of the present invention, the technical idea that such modifications and variations are also within the scope of the claims Must see

Claims (3)

An optical disc apparatus for performing an optimal recording power detection process for an optical disc, In the recording area for the optimal recording power detection process existing in the predetermined information area of the optical disc, a number of frames less than the number of frames allocated for one test recording is selected and tested with different recording optical power values for each frame. A first step of recording data; A second step of reproducing the recorded test data; A third step of detecting and curve fitting a characteristic of the reproduction signal with respect to the recording optical power value of each selected frame; And And a fourth process of detecting an optimum recording power in the fitted curve if the linear characteristic of the fitted curve is within a preset range. The method of claim 1, Wherein the first process is performed for three frame areas. The method of claim 1, If the determined linear characteristic is out of a predetermined range, the step of increasing the number of the frame selected in the first process by a predetermined number, and further comprising the step of performing the above steps again, the optimum recording power in the optical disk device Detection method.